Management reference for nature reserve networks based on MaxEnt modeling and gap analysis: a case study of the brown-eared pheasant in China

Management reference for nature reserve networks based on MaxEnt modeling and gap analysis: a case study of the brown-eared pheasant in China.-Nature reserve designs and networks are important for wildlife and habitat conservation. Gap analyses are efficient and reliable tools for prioritizing habitat conservation efforts, especially when considering endangered species. We propose a conservation plan for the brown-eared pheasant, Crossoptilon mantchuricum, by identifying protection gap areas based on 14 existing nature reserves. A total of 45 locality sites and 11 environmental variables were selected according to the characteristics of habitat use of the brown-eared pheasant and applied to a maximum entropy (MaxEnt) model to obtain the species distribution. The MaxEnt model results showed a high prediction accuracy. The gap analysis results revealed that the Luliang Mountains in Shanxi and the Xiaowutai Mountains in Hebei had protection gaps. We found 458 km(2) of optimum habitat and 1,390 km(2) of moderately suitable habitat within the national nature reserve range. However, almost 1,861 km2 of the optimum habitat and 17,035 km2 of the moderately suitable habitat were unprotected, equivalent to 9.0% and 82.1%, respectively, of the total suitable habitat. Most of the unprotected area comprised moderately suitable habitat for brown-eared pheasant and should be prioritized in future conservation efforts. There are nine nature reserves along a north-to-south range in the Luliang Mountains that form a wildlife habitat corridor. To maintain the integrity, originality, and continuity of these habitats and thus protect brown-eared pheasants, local conservation departments should be strengthened to improve provincial nature reserve management and successfully carry out conservation efforts.